CN219020609U - Subway station design platform based on BIM - Google Patents

Abstract

The utility model discloses a subway station design platform based on BIM, which comprises an equipment main body, wherein a BIM design device and a physical simulation building device are arranged on the equipment main body; the physical simulation building device comprises: the simulation building platform is arranged on the equipment main body through the supporting component; the base module is adjustably arranged on the simulation building table; the positioning support is detachably arranged on the base module, and a second connecting column is integrally arranged at the top of the positioning support. According to the utility model, by arranging the physical simulation building device, the structure of the subway station can be simulated and built by utilizing the positioning support and the station building module according to the requirements, in addition, a user can rotate the center block according to the requirements, so that the position of the positioning column is changed, the position of the corresponding positioning support is changed, the building flexibility is improved, and better analysis and adjustment can be realized, so that the subway station is suitable for the initial stage of subway station design.

Description

Subway station design platform based on BIM

Technical Field

The utility model relates to the technical field of design platforms, in particular to a subway station design platform based on BIM.

Background

BIM is a building or construction engineering information model which is composed of sufficient information to support development and management of new products and can be directly interpreted by a computer application program, and is generally applied to the fields of building design, management and the like; the existing building design only adopts BIM, although the existing building design can meet certain design requirements, the positions of all structures are required to be frequently changed in the initial stage of the design so as to pursue better design effects, and the existing building design is only virtually built through a BIM system, is inconvenient and intuitive to analyze, is not suitable for large-scale modification, and therefore needs to be improved.

Through retrieving, chinese patent application number CN202120492503.0 discloses a multi-functional building design platform, including drawing platform, supporting seat and placing the thing platform, the supporting seat with put and all be provided with the storage piece of accomodating drawing appurtenance on the thing platform, wherein put the thing platform and can slide on the drawing platform, the building design platform be provided with elevating system. The architectural design platform in the above patent has the following disadvantages: the design is only performed by means of drawing, which is unfavorable for analysis and adjustment, and thus, there is still a need for improvement.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a subway station design platform based on BIM.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the subway station design platform based on the BIM comprises an equipment main body, wherein a BIM design device and a physical simulation building device are arranged on the equipment main body;

the physical simulation building device comprises:

the simulation building platform is arranged on the equipment main body through the supporting component;

the base module is adjustably arranged on the simulation building table;

the positioning bracket is detachably arranged on the base module, and a second connecting column is integrally arranged at the top of the positioning bracket;

the station building module is provided with a connecting groove matched with the first connecting column on the outer wall opposite to the first connecting column;

the station building module is detachably arranged in the connecting groove of the other station building module through the first connecting column;

wherein, the base module includes:

the center block is rotatably arranged on the simulation building table, four side surfaces of the center block are of cambered surface structures, and the four cambered surfaces of the center block are provided with arc grooves;

the outer walls of the tops of the edge blocks are provided with positioning columns, the positioning brackets are detachably arranged on the positioning columns, the outer walls of the two sides of the edge blocks are of cambered surface structures matched with the center blocks, and the outer walls of the edge blocks are integrally provided with arc-shaped cutting bars matched with the arc-shaped grooves;

when the four edge blocks are arranged in the four arc grooves of the center block through the arc cutting, a disc-shaped structure is formed, and the four edge blocks are distributed circumferentially about the center of the center block; the other side of the edge block is connected in an arc-shaped groove of the other center block in a sliding way through the other arc-shaped cutting; the center blocks and the side blocks are arranged in a compact array structure.

As still further aspects of the utility model: the spout has been seted up to equipment main part top lateral wall, and slidable installs the mount table in the spout, and BIM design device installs in mount table top outer wall.

As still further aspects of the utility model: the equipment main part is last to be provided with accomodate the subassembly, the supporting component includes:

the sleeve is arranged above the storage assembly;

the sliding rod bottom end is connected to the inner wall of the sleeve in a sliding manner, and the simulation building table is fixed to the outer wall of the top end of the sliding rod.

As still further aspects of the utility model: the jack has been seted up to mount table one side outer wall, the simulation build one side outer wall of platform be fixed with the spliced pole of jack looks adaptation, the simulation build the platform through spliced pole detachable grafting in the jack of mount table.

As still further aspects of the utility model: the lighting lamp is detachably arranged at the top of the equipment main body and is positioned at two sides of the simulation building table.

As still further aspects of the utility model: the storage assembly includes:

the storage box is arranged on the equipment main body, and the sleeve is arranged on the outer wall of the top of the storage box;

the storage drawer is connected to the inner wall of the storage box in a sliding manner;

the handle is fixed on the outer wall of one side of the storage drawer.

As still further aspects of the utility model: the equipment is characterized in that a plurality of groups of sliding rails are fixed on the equipment main body, a bearing plate is slidably arranged in each group of sliding rails, and a plurality of storage grooves are formed in the bearing plate.

As still further aspects of the utility model: annular elastic parts are arranged on the side walls of the first connecting column and the second connecting column; an annular clamping groove matched with the annular elastic part is formed in the inner side of the connecting groove.

The beneficial effects of the utility model are as follows:

1. according to the utility model, by arranging the physical simulation building device, the structure of the subway station can be simulated and built by utilizing the positioning support and the station building module according to the requirements, in addition, a user can rotate the center block according to the requirements, so that the position of the positioning column is changed, the position of the corresponding positioning support is changed, the building flexibility is improved, and better analysis and adjustment can be realized, so that the subway station is suitable for the initial stage of subway station design.

2. The BIM design device is arranged, so that the BIM design device can be matched with the physical simulation building device for design, and further design can be performed based on the design result of the physical simulation building device, and the BIM design device is more suitable for later stages.

3. According to the utility model, the mounting table is arranged, so that the position of the BIM design device can be conveniently adjusted, and the design operation is convenient; the height of the simulation building table can be conveniently adjusted by arranging the supporting component, so that the design is convenient; through setting up jack and spliced pole, can be when the lifting of simulation build the platform, lift the simulation build the platform to the height with mount table looks adaptation, slide the mount table in the spout again, make the spliced pole peg graft in the jack, reach auxiliary fixation's effect, promoted the practicality.

4. According to the utility model, by arranging the structures such as the lighting lamp and the like, the effect of simulating illumination can be achieved based on the irradiation of the lighting lamp, and the simulation construction design of the real object simulation construction device is facilitated; meanwhile, the lamp can also play a role in illumination.

5. According to the utility model, the annular elastic part and the annular clamping groove are arranged, so that when the first connecting column or the second connecting column is inserted into the connecting groove, the annular elastic part is clamped into the annular clamping groove, and the installation firmness is improved.

Drawings

Fig. 1 is a schematic structural diagram of a subway station design platform based on BIM according to the present utility model;

fig. 2 is a schematic structural diagram of a subway station design platform based on BIM in a lifting state of a simulation building platform;

fig. 3 is a schematic structural diagram of a subway station design platform simulation building platform and a station building module based on BIM;

fig. 4 is a schematic structural diagram of a subway station design platform simulation building platform based on BIM;

fig. 5 is a schematic structural diagram of a subway station design platform station building module based on BIM and a sectional view of a positioning bracket after being detached;

fig. 6 is a schematic structural diagram of a subway station design platform base module based on BIM according to the present utility model;

fig. 7 is a schematic diagram of a subway station design platform base module splitting structure based on BIM according to the present utility model.

In the figure: 1-equipment main body, 2-slide rail, 3-loading board, 4-mount table, 5-BIM design device, 6-jack, 7-station building module, 8-lighting lamp, 9-simulation building table, 10-sleeve, 11-storage drawer, 12-handle, 13-storage box, 14-slide bar, 15-storage tank, 16-plug, 17-first connecting column, 18-connecting slot, 19-locating bracket, 20-locating column, 21-center block, 22-side block, 23-second connecting column, 24-annular clamping slot, 25-annular elastic part, 26-arc-shaped plug strip and 27-arc-shaped slot.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the patent and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be configured and operated in a particular orientation, and are therefore not to be construed as limiting the patent.

In the description of this patent, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "disposed" are to be construed broadly, and may be fixedly connected, disposed, detachably connected, disposed, or integrally connected, disposed, for example. The specific meaning of the terms in this patent will be understood by those of ordinary skill in the art as the case may be.

Example 1

1-7, the subway station design platform based on BIM comprises an equipment main body 1, wherein a BIM design device 5 and a physical simulation building device are arranged on the equipment main body 1;

the physical simulation building device comprises:

a simulation building table 9, wherein the simulation building table 9 is installed on the equipment main body 1 through a supporting component;

the base module is adjustably arranged on the simulation building platform 9;

the positioning bracket 19, the positioning bracket 19 is detachably arranged on the base module, and a second connecting column 23 is integrally arranged at the top of the positioning bracket 19;

the station building module 7, wherein the three outer walls of the station building module 7 are integrally provided with first connecting columns 17, and the station building module 7 is provided with connecting grooves 18 matched with the first connecting columns 17 on the outer wall opposite to the first connecting columns 17;

the second connecting column 23 is matched with the connecting groove 18, the station building module 7 is detachably arranged on the second connecting column 23 of the positioning bracket 19 through the connecting groove 18, and the station building module 7 is detachably arranged in the connecting groove 18 of the other station building module 7 through the first connecting column 17;

wherein, the base module includes:

the center block 21, the center block 21 is rotatably installed on the simulation building table 9, four sides of the center block 21 are of cambered surface structures, and the four cambered surfaces of the center block 21 are provided with arc grooves 27;

the outer walls of the top of the side block 22 are provided with positioning columns 20, the positioning brackets 19 are detachably arranged on the positioning columns 20, the outer walls of the two sides of the side block 22 are of cambered surface structures matched with the center block 21, and the outer walls of the side block 22 are integrally provided with arc-shaped cutting bars 26 matched with the arc-shaped grooves 27;

when the four side blocks 22 are arranged in the four arc grooves 27 of the center block 21 through the arc cutting 26, a disc-shaped structure is formed, and the four side blocks 22 are circumferentially distributed and arranged about the center of the center block 21; the other side of the edge block 22 is slidingly connected in an arc-shaped groove 27 of the other center block 21 through the other arc-shaped insert 26; the center blocks 21 and the side blocks 22 are in a compact array arrangement structure;

by arranging the physical simulation building device, the structure of the subway station can be simulated and built by using the positioning support 19 and the station building module 7 according to the requirements, in addition, a user can rotate the center block 21 according to the requirements, so that the position of the positioning column 20 is changed, the position of the corresponding positioning support 19 is changed, the building flexibility is improved, better analysis and adjustment can be realized, and the device is suitable for the initial stage of subway station design; through setting up BIM design device 5, can cooperate the practicality to simulate to build the device and design, also can build the device based on the practicality and design the result and carry out further design, more be applicable to the later stage.

To facilitate adjustment of the position of the BIM design means 5; as shown in fig. 1 and 2, a chute is formed on the side wall of the top of the device main body 1, a mounting table 4 is slidably mounted in the chute, and a bim design device 5 is mounted on the outer wall of the top of the mounting table 4;

through setting up mount table 4, the position of adjustment BIM design device 5 that can be convenient to design the operation.

To facilitate the adjustment of the height of the simulation building stand 9; as shown in fig. 2, the apparatus main body 1 is provided with a storage assembly, and the support assembly includes:

a sleeve 10, the sleeve 10 being mounted above the receiving assembly;

the sliding rod 14, the bottom end of the sliding rod 14 is connected to the inner wall of the sleeve 10 in a sliding way, and the simulation building table 9 is fixed on the outer wall of the top end of the sliding rod 14;

through setting up supporting component, the height of the simulation setting up platform 9 of adjustment that can be convenient is convenient for design.

A simulation build stand 9 for ease of fixing; as shown in fig. 1 and 3, the outer wall of one side of the mounting table 4 is provided with a jack 6, the outer wall of one side of the simulation building table 9 is fixed with a plug 16 matched with the jack 6 through a screw, and the simulation building table 9 is detachably inserted into the jack 6 of the mounting table 4 through the plug 16;

through setting up jack 6 and spliced pole 16, can be when the lifting of simulation build platform 9, lift the simulation build platform 9 to with the height of mount table 4 looks adaptation, slide mount table 4 in the spout again, make spliced pole 16 peg graft in jack 6, reach auxiliary fixation's effect, promoted the practicality.

To facilitate auxiliary polishing; as shown in fig. 2, the top of the device main body 1 is detachably provided with lighting lamps 8, and the lighting lamps 8 are positioned at two sides of the simulation building platform 9;

by arranging the structures such as the lighting lamp 8, the effect of simulating illumination can be achieved based on the irradiation of the lighting lamp 8, and the simulation construction design of the real object simulation construction device is facilitated; meanwhile, the lamp can also play a role in illumination.

For easy storage; as shown in fig. 1, the storage assembly includes:

a storage box 13, the storage box 13 is installed on the equipment main body 1, and the sleeve 10 is installed on the top outer wall of the storage box 13;

the storage drawer 11 is connected to the inner wall of the storage box 13 in a sliding manner;

the handle 12, the handle 12 is fixed to the outer wall of one side of the storage drawer 11 through screws.

For easy storage; as shown in fig. 2, a plurality of groups of sliding rails 2 are fixed on the device main body 1, a bearing plate 3 is slidably installed in each group of sliding rails 2, and a plurality of storage grooves 15 are formed in the bearing plate 3;

through setting up loading board 3, storage tank 15 and accomodating the subassembly, can accomodate the management to structures such as station building module 7, promoted the practicality.

Working principle: in the initial design stage, a user lifts the simulation building platform 9 to a height matched with the mounting platform 4, then slides the mounting platform 4 in the sliding groove, and inserts the inserting column 16 in the inserting hole 6 to assist in fixing the physical simulation building device; the user utilizes the locating support 19 and the station building module 7 to simulate and build the structure of the subway station according to the requirements, and when the subway station is built, the user can change the position of the locating column 20 in a mode of rotating the central block 21, so that the position of the corresponding locating support 19 is changed, the flexibility of building is improved, and better analysis and adjustment can be realized;

after the infrastructure of the subway station is determined through the physical simulation building device, the subway station can be further designed based on the design result of the physical simulation building device through the BIM design device 5, so that subsequent design work is completed.

Example 2

Referring to fig. 5, the following improvements are made in this embodiment compared to embodiment 1 in a subway station design platform based on BIM: the side walls of the first connecting column 17 and the second connecting column 23 are provided with annular elastic parts 25; an annular clamping groove 24 matched with the annular elastic part 25 is formed in the inner side of the connecting groove 18;

by providing the annular elastic portion 25 and the annular clamping groove 24, when the first connecting column 17 or the second connecting column 23 is inserted into the connecting groove 18, the annular elastic portion 25 is clamped into the annular clamping groove 24, so that the installation firmness is improved.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The subway station design platform based on BIM comprises an equipment main body (1), and is characterized in that a BIM design device (5) and a physical simulation building device are arranged on the equipment main body (1);

the physical simulation building device comprises:

a simulation building table (9), wherein the simulation building table (9) is arranged on the equipment main body (1) through a supporting component;

the base module is adjustably arranged on the simulation building table (9);

the positioning support (19) is detachably arranged on the base module, and a second connecting column (23) is integrally arranged at the top of the positioning support (19);

the station building module (7), three outer walls of the station building module (7) are integrally provided with a first connecting column (17), and the station building module (7) is provided with a connecting groove (18) matched with the first connecting column (17) on the outer wall opposite to the first connecting column (17);

the second connecting column (23) is matched with the connecting groove (18), the station building module (7) is detachably arranged on the second connecting column (23) of the positioning bracket (19) through the connecting groove (18), and the station building module (7) is detachably arranged in the connecting groove (18) of the other station building module (7) through the first connecting column (17);

wherein, the base module includes:

the center block (21), the center block (21) is rotatably installed on the simulation building table (9), four sides of the center block (21) are of cambered surface structures, and the four cambered surfaces of the center block (21) are provided with arc grooves (27);

the outer walls of the tops of the edge blocks (22) are provided with positioning columns (20), positioning brackets (19) are detachably arranged on the positioning columns (20), the outer walls of the two sides of the edge blocks (22) are of cambered surface structures matched with the center blocks (21), and the outer walls of the edge blocks (22) are integrally provided with arc-shaped cutting bars (26) matched with the arc-shaped grooves (27);

when the four edge blocks (22) are arranged in the four arc grooves (27) of the center block (21) through the arc cutting (26), a disc-shaped structure is formed, and the four edge blocks (22) are circumferentially distributed and arranged relative to the center of the center block (21); the other side of the edge block (22) is connected in an arc-shaped groove (27) of the other center block (21) in a sliding way through the other arc-shaped cutting (26); the center blocks (21) and the side blocks (22) are arranged in a compact array structure.

2. The subway station design platform based on BIM according to claim 1, wherein a chute is formed in the side wall of the top of the equipment main body (1), an installation table (4) is slidably installed in the chute, and the BIM design device (5) is installed on the outer wall of the top of the installation table (4).

3. The subway station design platform based on BIM according to claim 2, wherein the device body (1) is provided with a receiving assembly, and the supporting assembly includes:

the sleeve (10) is arranged above the storage assembly;

the bottom end of the sliding rod (14) is connected with the inner wall of the sleeve (10) in a sliding way, and the simulation building table (9) is fixed on the outer wall of the top end of the sliding rod (14).

4. The subway station design platform based on BIM according to claim 3, wherein the jack (6) is provided on the outer wall of one side of the installation platform (4), the inserting column (16) matched with the jack (6) is fixed on the outer wall of one side of the simulation building platform (9), and the simulation building platform (9) is detachably inserted into the jack (6) of the installation platform (4) through the inserting column (16).

5. The subway station design platform based on BIM according to claim 1, wherein a lighting lamp (8) is detachably arranged at the top of the equipment main body (1), and the lighting lamp (8) is positioned at two sides of the simulation building platform (9).

6. A BIM-based subway station design platform according to claim 3, wherein the receiving assembly includes:

the storage box (13), the storage box (13) is installed on the equipment main body (1), and the sleeve (10) is installed on the outer wall of the top of the storage box (13);

the storage drawer (11), the storage drawer (11) is connected to the inner wall of the storage box (13) in a sliding way;

and the handle (12), the handle (12) is fixed on the outer wall of one side of the storage drawer (11).

7. The subway station design platform based on BIM according to claim 1, wherein a plurality of groups of sliding rails (2) are fixed on the equipment main body (1), a bearing plate (3) is slidably installed in each group of sliding rails (2), and a plurality of storage grooves (15) are formed in the bearing plate (3).

8. A BIM-based subway station design platform according to any one of claims 1 to 7, wherein the side walls of the first (17) and second (23) connecting posts are provided with annular resilient portions (25); an annular clamping groove (24) matched with the annular elastic part (25) is formed in the inner side of the connecting groove (18).

Images